2015 Cardiac Physiome Workshop Program
Transcription
2015 Cardiac Physiome Workshop Program
2015 Cardiac Physiome Workshop ANZ Viaduct Events Centre, Auckland, New Zealand April 8-10, 2015 Wednesday 8th April 09:00 Software Demonstrations and Publication of Computational Data Venue: Auckland Bioengineering Institute 17:00 Registration and opening reception Room: Kawau 2 20:00 Cardiac Physiome Society meeting Room: Kawau 2 Thursday 9th April (Room: Kawau 1) 08:00 08.00 Registration + tea/coffee 08:50 Opening Remarks THEME 1 – CARDIAC MECHANICS Chair: Alistair Young University of Auckland 09:00 Plenary speaker: Andrew McCulloch (University of California, San Diego) Multi-Scale Modeling of Cardiac Mechanics in Murine Heart Failure 09:50 Break & Poster Viewing 10:20 Nic Smith (University of Auckland) Multi-scale computational modelling of coronary blood flow 10:40 Ki Moo Lim (Kumoh Institute of Technology) Computational prediction for effects of valvular regurgitation on IABP function using a 3D cardiac mechanics model 11:00 Charles Taylor (Heartflow Inc & Stanford University) Non-invasive fractional flow reserve derived from coronary CT angiography: clinical data and scientific principles 11:20 Michael Sacks (University of Texas at Austin) Estimation of fully three-dimensional properties of passive myocardium: a coupled inverse model-experimental study 11:40 Discussion 12:00 Poster teaser presentations 12:30 Lunch & Poster viewing THEME 2 – DEVELOPMENT & TISSUE REMODELLING Chair: David Paterson University of Oxford 13:30 Plenary speaker: Sally Dunwoodie (Victor Chang Cardiac Research Institute) Exploring the genetic and environmental drivers of cardiogenesis and congenital heart disease 14:20 Break & Poster viewing 14:50 Lauren Fovargue (KCL) Understanding cardiac resynchronisation therapy patient selection through modelling 15:20 Christopher Villongco (UCSD) 15:40 16:00 Cardiac resynchronization therapy reduces negative myocardial work in patient-specific models of dyssynchronous heart failure Vicky Wang (University of Auckland) Mechanical analysis of structural and functional remodelling in heart failure Tammo Delhaas (Maastricht University) Determinants of cardiac function in a biventricular finite element model: geometry versus myofiber orientation Discussion 16:20 16:40 Poster session and social hour drinks Friday 10th April (Room: Kawau 1) 08:30 Registration + tea/coffee THEME 3 – CELL & MOLECULAR PROCESSES Chair: Edmund Crampin University of Melbourne 09:00 Plenary speaker: Carol Robinson (University of Oxford) A new view of membrane embedded complexes in cells 09:50 Break & Poster viewing 10:20 Gary Mirams (University of Oxford) 10:40 11:00 11:20 Experimental design and inference for ion channel model selection and calibration Vijay Rajagopal (University of Melbourne) Examination of the effects of heterogeneous organization of RyR clusters, myofibrils and mitochondria on Ca2 + release patterns in cardiomyocytes Georges Christé (Université Claude Bernard Lyon 1) Role of the IKr current in potassium ions accumulation during an ischemia. Simulations in a human ventricular myocyte computer model Denis Loiselle & Andrew Taberner (University of Auckland) Measuring global cardiac mechano-energetics at the Auckland Bioengineering Institute Discussion 11:40 12:00 Lunch & Poster Viewing THEME 4 – CARDIAC ELECTROPHYSIOLOGY 13:00 Plenary speaker: Bruce Smaill (University of Auckland) Images of cardiac electrical activation 13:50 Break 14:20 Sasha Panfilov (University of Gent) 14:40 15:00 15:20 15:40 16:00 16.3018.00 18.00- Chair: Nic Smith University of Auckland Role of small sized heterogeneities in the onset and perpetuation of cardiac arrhythmias Richard Walton (Université de Bordeaux) Uni-directional propagation at short coupling intervals through the muscular compartment of the right ventricular conduction network Peter Kohl (Imperial College London) Debunking mechanisms and determinants of mechanical induction of cardiac arrhythmias: experimental validation of modelling predictions made a decade ago. Axel Lowe (Karlsruhe Institute of Technology) In silico assessment of the dynamic effects of amiodarone and dronedarone on human atrial patho-electrophysiology Discussion Closing Remarks At own leisure Conference Dinner Saturday 11th April All day Cardiac electrophysiology satellite meeting Room: Kawau 2 Poster Listing Theme 1 – Cardiac Mechanics 1 Bianca Freytag UoA 2 Anton Koshelev Ural Federal University 3 Renee Miller UoA 4 Luigi Perotti UCLA 5 Aditya Ponnaluri 6 Michael Sacks UCLA 7 8 9 10 11 Field-Based Parameterisation Of Left Ventricular Microstructure From Diffusion Tensor Magnetic Resonance Images Mathematical model of the basal and apical regions of the left ventricle of the heart Determining Anisotropic Myocardial Stiffness from Simulated Magnetic Resonance Elastography with Gaussian Noise Identification of Unique Material Properties for Passive Myocardium Material Point Validation for an Electromechanical Viscoactive Myocardium Constitutive Model U Texas at Myofiber-Collagen fiber mechanical interactions in normal and Austin hypertrophied right ventricle free wall myocardium Shimayoshi Kyoto University Influence of Cellular Level Transmural Heterogeneity on Left Ventricular Takao Energetic Efficiency: A Theoretical Study Sugiura Seiryo The University of Multi-scale, multi-physics simulations of congenital heart disease and its Tokyo surgical repair Zhinuo (Jenny) UoA Estimation of myocardial contractile stress transients using subject-specific MR Wang imaging and haemodynamic data Vladimir Zverev Ural Federal Extension of a one-dimensional model of the heart muscle strand to the simple University three-dimensional domain Kim Mellor UoA Normotensive cardiac hypertrophy is associated with reduced contractile performance but increased efficiency in isolated cardiac trabeculae Theme 2 – Development & Tissue Remodelling 12 Nazanin Ebrahimi 13 Jagir Hussan UoA Towards a Multi-scale Systems Biology Model of the Developing Heart UoA 14 Alex Wilson UoA Modelling intracellular mechanical events using geometric metamorphosis Structural and functional relationships in cardiac remodelling 15 Jaeboum Youm College of Medicine, Spontaneous oscillation of Na+/Ca2+ exchanger currents Inje University reflects the role of Ca2+ clock-dependent pacemaker mechanism in human embryonic stem cell derived cardiomyocytes 16 Brian Carlson University of Quantitative Assessment of the Coupling of Michigan Theoretical Fibroblast and Cardiomyocyte Models Theme 3 – Cell & Molecular Processes 17 A.J. Bakermans Academic Medical Center 18 Karen Cardona Universitat Pompeu Urrego/Oscar Fabra Camara Localized 31P-MRS of the human heart - towards dynamic assessments of myocardiacl energy metabolism at multiple cardiac work rates In-silico Analysis of influence of fibroblasts in the generation of late potentials in conducting channels 19 Ming Cheuk UoA OCT imaging of isolated cardiac trabeculae: adding a new dimension to the study of contracting cardiac muscle preparations 20 Georges Christé Université Lyon 1 Contributions of multiple tetrameric arrangements of HCN1 and HCN4 subunits to the generation of If during a cardiac cycle in a model of single sino-atrial node cell 21 Richard Clayton University of Uncertainty and sensitivity analysis of cardiac cell models using Sheffield statistical emulators 22 Martin Max Delbrück A model of the rabbit ventricular cardiomyocyte with spatially Falcke/Stephen Center for Molecular resolved calcium cycling Gilbert Medicine 23 Garcia Universitat Pompeu Two-dimensional mechanical model of a cardiomyocyte to assess the Cañadilla, Fabra local inhomogeneities within the cell Patricia 24 June-Chiew Han UoA Mechanical efficiency of the diabetic heart at organ and tissue levels 25 Prashanna Khwaounjoo 26 Ki Moo Lim UoA Fibrosis and sudden cardiac death Computational Prediction of Effect of V241F Mutation on Human Ventricular Fibrillation under Fibrotic Condition 27 Denis Loiselle Kumoh National Institute of Technology UoA 28 Toan Pham UoA Does AV Hill’s ’Shortening Heat‘ exist in Cardiac Muscle? Interventricular Comparison of force-frequency and heat-frequency relationships at 37°C in isolated rat ventricular trabeculae 29 Jaeboum Youm College of Medicine, Neuronal nitric oxide synthase modulation of L-type Ca2+ channel activity in Inje University cardiac myocytes from normal and hypertensive rat 30 John Gennari University of Legacy Computational Model Annotation, Visualization and Merging Washington with SemGen Theme 4 – Cardiac Electrophysiology 31 Jesse Ashton UoA Impulse conduction in the right atrium during baroreflex induced bradycardia Cardiac response to weak electrical shocks challenges the functional syncytium paradigm 32 Bryan J. Caldwell SUNY Upstate Medical University, Syracuse, NY, USA 33 Judit Chamorro UoA Reconstructing atrial fibrillation: New inverse method for intracardiac Servent electro-anatomic mapping 34 Andrew Crozier Medical Uni of Graz High Resolution Personalised Modelling of Cardiac Electromechanics 35 Thomas Fastl KCL Towards a Modeling Pipeline for Atrial Electromechanics 36 Guardiola Universitat Pompeu Computational electrophysiology for prediction of the outflow tract origin Garcia, Marta Fabra in idiopathic ventricular tachycardia 37 Kristen McLeod Fast Sweeping Vs. Fast Marching for Eikonal Methods of Electrophysiology – A Potential for Significantly More Efficient Computation? 38 Jun-ichi Okada The University of Cardiac safety assessment of drug effects based on combining automated Tokyo patch clamp and three dimensional excitation propagation analyses Global alternans instability and its effect on wave propagation: 39 Sasha Panfilov U Gent dynamical Wenckebach block and self terminating spiral waves 40 Luigi Perotti UCLA The Electrophysiology of Heart Failure: Computational Modeling, Validation, and Evaluation of Ventricular Fibrillation 41 Aditya Ponnaluri 42 Indana Zulfa/Ki Moo Lim 43 Tammo Delhaas UCLA Modeling Cardiac Electrophysiology: The Electrocardiogram and Interventional Therapies for Ventricular Fibrillation Simulation Study of the Effect of G229D on KCNQ1 Mutation in the Occurrences of Atrial Fibrillation Kumoh National Institute of Technology Maastricht University TBA ****LATE BREAKING POSTERS **** Kalyan 44 Vinnakota 45 Daniel Beard University of Michigan University of Michigan University of Auckland University of 47 Hashem Yousefi Auckland University of 48 Belvin Thomas Auckland 46 Susann Beier Girish Singh 49 Ramlugun 50 Shu Meng 51 Liam Kampshof Feedback regulation and time hierarchy of oxidative phosphorylation in cardiac mitochondria Modular Multi-Scale Modeling of Cardiovascular Function to Probe the Etiology of Complex Cardiovascular Disease Coronary Bifurcation 3D Flow accessed with dimensionally scaled ex vivo PC-MRI and CFD - A Comparison for Idealized, Stented and Patient Specific Geometries University of Auckland University of Auckland Preliminary Steps for Large Scale Modelling of Heart Development Computational investigation of the role of structural remodelling in atrial fibrillation Three dimensional reconstruction of atrial myocyte architecture: How does tissue remodelling contribute to the substrate for atrial fibrillation? Accurate Endocardial Activation Representation of Atria with Noncontact Mapping University of Auckland Modeling Cardiac Electrophysiology: The Electrocardiogram and Interventional Therapies for Ventricular Fibrillation